Organic Light Emitting Diode ("oled") Visual Authentication Circuit Board

1. A programmable circuit board comprising: a programmable array of organic light emitting diodes (“OLEDs”) forming an OLED display, the array of OLEDs having a thickness that is not greater than 0.25 mm and having a surface area that is at least 90% of 85.60 mm×53.98 mm; a communication circuit having a thickness that is not greater than 0.8 mm; a processor circuit comprising a non-transitory memory and a processor, the processor circuit having a thickness that is not greater than 0.25 mm; and a power source for powering the OLED display, the communication circuit and the processor circuit, the power source having a thickness that is not greater than 0.5 mm; wherein, in operation, the processor circuit is configured to: receive programming instructions from a user of the circuit board via the OLED display, the programming corresponding to a light pattern presented on the OLED display in response to initiation, by the user, of a pre-determined workflow; store the light pattern in the non-transitory memory; instruct the OLED display to self-illuminate in accordance with the light pattern, said self-illumination being triggered by initiation of the pre-determined workflow; receive a message from the communication circuit that the circuit board is within a pre-determined distance of a wireless beacon; and in response to receiving the message, instruct the communication circuit to transmit instructions that dynamically program the wireless beacon, such that, in response to initiation of the pre-determined workflow at the wireless beacon, the wireless beacon presents information to the user that conforms to the light pattern stored on the circuit board.

2. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that, when executed by the processor circuit instruct the OLED display to present information in a font size that is at least 14 point.

3. The circuit board of claim 2 , wherein, when the light pattern is transferred to the wireless beacon, the wireless beacon is dynamically programmed to scale-up the font size based on one or more properties of a screen hardwired to the wireless beacon.

4. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that, when executed by the processor circuit, instruct the OLED display to present information using a color scheme that does not include red and green.

5. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that, when executed by the processor circuit, instruct the OLED display to present information in greyscale.

6. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that, when executed by the processor circuit, instruct the OLED display to present an approval indicator in a first shape and a rejection indicator in a second shape.

7. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that, when executed by the processor circuit, instruct the OLED display to present: a first approval indicator for a first transaction value in a first shape and in a first color; and a second approval indicator for a second transaction value in a second shape and in a second color; wherein the second transaction value indicator is at least double the first transaction value.

8. The circuit board of claim 1 , wherein the light pattern comprises executable instructions that program the wireless beacon such that, when the light pattern is transferred to the wireless beacon, the wireless beacon is dynamically programmed to present information on the wireless beacon as if the pre-determined workflow had been initiated on the wireless beacon.

9. The circuit board of claim 1 , wherein: the light pattern is a first light pattern; the pre-determined workflow is a first workflow; in operation, the processor circuit is configured to receive a second light pattern programmed by the user of the circuit board, the second light pattern programmed to be presented on the OLED display in response to initiation, by the user, of a second pre-determined workflow; and the second light pattern is different from the first light pattern.

10. The circuit board of claim 9 wherein, the first workflow is executed by the user more frequently over a pre-determined time window than the second workflow.

11. The circuit board of claim 9 wherein the first light pattern is presented when the circuit board prompts the user for credentials at a login screen and the second light pattern is presented after the circuit board authenticates the credentials at the login screen.

12. A programmable integrated circuit comprising: a programmable array of organic light emitting diodes (“OLEDs”) forming an OLED display, the array of OLEDs having a thickness that is not greater than 0.25 mm and having a surface area that is at least 90% of 85.60 mm×53.98 mm; a communication circuit having a thickness that is not greater than 0.8 mm; a processor circuit comprising a non-transitory memory and a processor, the processor circuit having a thickness that is not greater than 0.25 mm; and a power source for the OLED display, the communication circuit and the processor circuit, the power source having a thickness that is not greater than 0.5 mm; wherein, in operation, the processor circuit: is programmable by a user of the integrated circuit to display a light pattern created by the user; stores programming instructions associated with the light pattern in the non-transitory memory; verifies that sensitive data associated with the integrated circuit is secure; presents the light pattern created by the user on the OLED display in response to verifying that sensitive data associated with the integrated circuit is secure; receives a message from the communication circuit that the integrated circuit is within a pre-determined distance of a wireless beacon; determines whether the sensitive data associated with the integrated circuit is securely transferrable to the wireless beacon; and in response to determining that the sensitive data associated with the integrated circuit is securely transferrable to the wireless beacon: dynamically programs the wireless beacon to display the light pattern to the user before accepting the sensitive data from the integrated circuit; and transfers the sensitive data to the wireless beacon.

13. The integrated circuit of claim 12 wherein the light pattern is a first light pattern, and in operation, the processor circuit is configured to instruct the OLED display to illuminate as directed by a second light pattern in response to determining that sensitive data associated with the integrated circuit has been compromised.

14. The integrated circuit of claim 13 wherein, in response to receiving a message from the communication circuit that the integrated circuit is within a pre-determined distance of the wireless beacon, the processor circuit is configured to: transfer the second light pattern to the wireless beacon; and dynamically program the wireless beacon to display the second light pattern before presenting a login screen to the user.

15. The integrated circuit of claim 14 wherein, the processor circuit is further configured to dynamically program the wireless beacon such that, in response to receiving the second light pattern, the wireless beacon prompts the user to enter a new set of sensitive data.

16. The integrated circuit of claim 15 wherein, the processor circuit is further configured to be dynamically programmed by the wireless beacon such that the new set of sensitive data is transferred to the integrated circuit and stored on the non-transitory medium.

17. The integrated circuit of claim 16 wherein, the processor circuit is further configured, in response to receiving the new set of sensitive data from the wireless beacon, to: determine that the new set of sensitive data is secure; and in response to determining that the new set of sensitive data is secure, instruct the OLED display to illuminate as directed by the first light pattern.

18. An integrated circuit comprising: a programmable array of organic light emitting diodes (“OLEDs”) forming an OLED display, the array of OLEDs having a thickness that is not greater than 0.25 mm and having a surface area that is at least 90% of 85.60 mm×53.98 mm; a communication circuit having a thickness that is not greater than 0.8 mm; a processor circuit comprising a non-transitory memory and a processor, the processor circuit having a thickness that is not greater than 0.25 mm; and a battery for powering the OLED display, the communication circuit and the processor circuit, the battery having a thickness that is not greater than 0.5 mm; wherein, in operation, the processor circuit is configured to: receive a first light pattern programmed by a user of the integrated circuit, the first light pattern presented on the OLED display in response to initiation, by the user, of a pre-determined workflow; store the first light pattern in the non-transitory memory; instruct the OLED display to illuminate as directed by the first light pattern in response to initiation of the pre-determined workflow; receive a message from the communication circuit that the integrated circuit is within a pre-determined distance of a wireless beacon; in response to receiving the message, transferring the first light pattern to the wireless beacon and dynamically programming the wireless beacon such that in response to initiation of the pre-determined workflow at the wireless beacon, the wireless beacon requests that the integrated circuit transfers the first light pattern to the wireless beacon and presents information to the user as directed by the first light pattern; receive a second light pattern programmed by the user using the wireless beacon, the second light pattern to be presented on the OLED display in response to initiation, by the user, of the pre-determined workflow; and in response to receiving the second light pattern from the wireless beacon, delete the first light pattern and store the second light pattern in the non-transitory memory.

19. The integrated circuit of claim 18 , wherein in response to receiving the second pattern from the wireless beacon, the processor circuit adapts the second light pattern for presentation on the OLED display of the integrated circuit.

20. The integrated circuit of claim 18 , wherein the wireless beacon is configured to present to the user an instance of the second light pattern, configured for presentation on the OLED display of the integrated circuit, before transferring the second light pattern to the integrated circuit.